Saab Seaeye Boosts ROV Satellite Control

Saab Seaeye has enhanced the system for global remote control of its electric underwater robotic vehicles via satellite link and 4G networks.

Remote control of its Leopard electric robotic work vehicle has now been upgraded to include control of the TMS.

Such remote operations should bring savings to the oil and gas industry by reducing the need for offshore piloting personnel and advancing the potential for long-distance control of remote resident systems, says Saab Seaeye.

Earlier trials of the concept reportedly proved that Saab Seaeye’s iCON control architecture can overcome the poor signal problems of low bandwidth and high latency, including coping with a 20 per cent data drop out.

Namely, satellite-linked operations have seen the Leopard undertake complex tasks while under the direct remote control of a pilot located at a shore base several thousand miles away.

Fingertip remote control of the Leopard by the pilot enabled him to perform a step-by-step operation of mating and un-mating underwater connectors.

At the same time, the piloting operation was deliberately challenged by a 20 per cent data drop-out to prove the capability of Saab Seaeye’s advanced iCON intelligent control architecture over a satellite link.

Other robotic work and inspection vehicles can be controlled in this way, says the company, including the Sabertooth AUV, a hybrid system that can operate as both a roaming AUV and an ROV that can perform light work tasks.

“The financial and operational benefits to offshore operators will come from needing fewer technicians offshore – none in the case of remote resident locations – along with increased effectiveness as the control and management of complex tasks can be performed remotely by highly experienced pilots together with technical support staff and computer aided control systems located at onshore locations across the globe,” the company said

An important future role for iCON, says Saab Seaeye, will be in the distant management of resident robotic systems that remain on station for a year at remote locations ready to be deployed on maintenance and inspection missions.

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